RF AND DIGITAL SIGNAL PROCESSING FOR SOFTWARE-DEFINED RADIO
A Multi-Standard Multi-Mode Approach To order this title, and for more information, click here
By Tony Rouphael, Chief systems Engineer, L-3 Linkabit, USA
Audience
Communications, RF, and DSP Engineers
Contents Chapter 1: Introduction
1.1 The Need for Software Defined Radio
1.2 The Software Defined Radio Concept
1.3 Software Requirements and Reconfigurability
1.4 Aim and Organization of the Book
References
Chapter 2: Common Analog Modulation and Pulse Shaping Methods
2.1 Amplitude Modulation
2.2 Frequency and Phase Modulation
2.3 Common Pulse Shaping Functions
References
Chapter 3: Common Digital Modulation Methods
3.1 Channel
Capacity Interpreted
3.2 PSK Modulation
3.3 FSK Modulation
3.4. Continuous Phase Modulation (CPM)
3.5. Gaussian MSK (GMSK)
3.6. On-Off
Keying (OOK)
3.7. Quadrature Amplitude Modulation (QAM)
3.8. Orthogonal Frequency Division Multiplexing (OFDM)
3.9. Spread Spectrum Modulation
3.10. Appendices
References
Chapter 4: High-Level Requirements and Link Budget Analysis
4.1 High Level Requirements
4.2 Link Budget
Analysis
4.3 Cascaded Noise Figure Analysis
References
Chapter 5: Memoryless Non-Linearity and Distortion
5.1. 1-dB Compression Point
Due to Memoryless Non-Linearities
5.2. Signal Desensitization and Blocking
5.3. Intermodulation Distortion
5.4. Cascaded Input-Referred
Intercept Points
5.5. Cross Modulation Distortion
5.6. Harmonics
5.7. Phase Noise and Reciprocal Mixing
5.8. Spurious Signals
5.9. Appendices
References
Chapter 6: Transceiver System Analysis and Design Parameters
6.1. Receiver Selectivity
6.2. Receiver Dynamic Range
6.3 AM/AM
and AM/PM
6.5. Modulation Accuracy: EVM and Waveform Quality Factor
6.6. Adjacent Channel Leakage Ratio (ACLR)
6.7. Transmitter Broadband
Noise
References
Chapter 7: Uniform Sampling of Signals and Automatic Gain Control
7.1. Sampling of Lowpass Signals
7.2. Sampling of
Bandpass Signals
7.3. The AGC Algorithm
7.4. Appendix: Derivation of Analog Reconstruction Formula for Half Integer Positioning
Chapter
8: Nyquist-Rate Data Conversion
8.1 Nyquist Converters
8.2 Overview of Nyquist Sampling Converter Architectures
8.3 Appendix: Gray Codes
References
Chapter 9: Modulators for Data Conversion
9.1. The Concept of Modulation
9.2. Comparison between Continuous-Time and
Discrete-Time -Modulation
9.3. SQNR Performance of -Modulators
9.4 Bandpass -Modulators
9.5 Common Architectures -Modulators
9.6 Further Non-Idealities in -Modulators
References
Chapter 10: Multirate Digital Signal Processing
10.1. Basics of Sample Rate Conversion
10.2. Filter Design and Implementation
10.3. Arbitrary Sampling Rate Conversion
References
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